研究業績

原著論文

Tahara, N., Akiyama, R., Wang, J., Kawakami, H., Bessho, Y., Kawakami, Y. (2021) The FGF-AKT pathway is necessary for cardiomyocyte survival for heart regeneration in zebrafish. Developmental Biology. 472:30-37

Ashimori A, Nakahata Y, Sato T, Fukamizu Y, Matsui T, Kazuyuki Shinohara K, Yasumasa Bessho Y. Attenuated SIRT1 activity leads to PER2 cytoplasmic localization and dampens the amplitude of Bmal1 promoter-driven circadian oscillation. Frontiers in Neuroscience, 15, 506 (2021). 

Miyatake S, Kato M, Kumamoto T, Hirose T, Koshimizu K, Matsui T, Takeuchi H, Doi H, Hamada K, Nakashima M, Sasaki K, Yamashita A, Takata A, Hamanaka K, Satoh M, Miyama T, Sonoda T, Sasazuki M, Torisu H, Hara T, Sakai Y, Noguchi Y, Miura M, Nishimura Y, Nakamura K, Asai H, Hinokuma N, Miya F, Tsunoda T, Togawa M, Ikeda Y, Kimura N, Amemiya K, Horino A, Fukuoka M, Ikeda H, Merhav G, Ekhilevitch N, Miura M, Mizuguchi T, Miyake N, Suzuki A, Ohga S, Saitsu H, Takahashi H, Tanaka F, Ogata K, Ohtaka-Maruyama C, and Matsumoto N. De novo ATP1A3 variants cause polymicrogyria. Science Advances, 7: eabd2368. (2021).

Yasukuni R., Minamino D., Iino T., Yamada S., Bessho Y., Matsui T., & Hosokawa Y. Pulsed laser activated impulse response encoder (PLAIRE): Sensitive evaluation of surface cellular stiffness on zebrafish embryos. Biomedical Optics Express, 12: 1366-1374 (2021). 

Y. Takeuchi, R. Narumi, R. Akiyama, E. Vitiello, T. Shirai, N. Tanimura, K. Kuromiya, S. Ishikawa, M. Kajita, M. Tada, Y. Haraoka, Y. Akieda, T. Ishitani, Y. Fujioka, Y. Ohba, S. Yamada, Y. Hosokawa, Y. Toyama, T. Matsui, and Y. Fujita(2020) Calcium  Wave Promotes Cell Extrusion Current Biology, 30 (4), 670-681. e6.

Ardaning Nuriliani, Yasukazu Nakahata, Rezwana Ahmed, Fiqri Dizar Khaidizar, Takaaki Matsui, Yasumasa Bessho (2020) Overexpression of Nicotinamide phosphoribosyltransferase in mouse cells confers protective effect against oxidative and ER stress‐induced premature senescence.  Genes to Cells,  Volume 25, Issue 8, 593-602.

Karaiwa A., Yamada S., Yamamoto H., Wakasa M., Ishijima H., Akiyama R., Hosokawa Y., Bessho Y., Matsui T. (2020) Relationship between surrounding tissue morphology and directional collective migration of the posterior lateral line primordium in zebrafish.  Genes to Cells, Volume 25, Issue 8, 582-592.

（↑唐岩さんの博士学位関連論文）

Abe K., Shimada S., Tayama S., Nishikawa S., Kaneko T., Tsuda S., Karaiwa A., Matsui T., Ishitani T., & Takeda, H. (2019) Horizontal boundary cells, a special group of dermomyotomal cells, play crucial roles in the formation of dorsoventral compartments in teleost somite. Cell Reports, 27, 928–939    

Naoki H, Akiyama R, Sari DWK, Ishii S, Bessho Y, Matsui T. (2019) Noise-resistant developmental reproducibility in vertebrate somite formation. PLoS Comput Biol. 15(2):e1006579.  (プレスリリース) 

Ahmed R, Ashimori A, Iwamoto S, Matsui T, Nakahata Y, Bessho Y. (2019).Replicative senescent human cells possess altered circadian clocks with a prolonged period and delayed peak-time. Aging (Albany NY). 11(3):950-973 

（↑Rezwanaさんの博士学位関連論文） 

Wong KL, Akiyama R, Bessho Y, Matsui T. ERK Activity Dynamics during Zebrafish Embryonic Development. Int J Mol Sci. 2018 Dec 28;20(1). pii: E109.

（↑Wongさんの博士学位関連論文） （表紙になりました！）

Hayashi S., Nakahata Y., Kohno K., Matsui T., Bessho Y., (2018). Presomitic mesoderm-specific expression of the transcriptional repressor Hes7 is controlled by E-box, T-box, and Notch signaling pathways. J Biol Chem 293:12167-12176

Nakahata, Y., Yasukawa, S., Khaidizar, F.D., Shimba, S., Matsui, T., and Bessho, Y. (2018). Bmal1-deficient mouse fibroblast cells do not provide premature cellular senescence in vitro. Chronobiol Int, 1-9.

Sari, D.W.K., Akiyama, R., Naoki, H., Ishijima, H., Bessho, Y., and Matsui, T. (2018). Time-lapse observation of stepwise regression of Erk activity in zebrafish presomitic mesoderm. Sci Rep 8, 4335.

（↑Diniさんの博士学位関連論文）

Khaidizar, F.D., Nakahata, Y., Kume, A., Sumizawa, K., Kohno, K., Matsui, T., and Bessho, Y. (2017). Nicotinamide phosphoribosyltransferase delays cellular senescence by upregulating SIRT1 activity and antioxidant gene expression in mouse cells. Genes Cells 22, 982-992.

（↑フィックリーさんの博士学位関連論文）

Yamada, S., Iino, T., Bessho, Y., Hosokawa, Y., and Matsui, T. (2017). Quantitative analysis of mechanical force required for cell extrusion in zebrafish embryonic epithelia. Biol Open 6, 1575-1580.

（↑山田さんの博士学位関連論文）

Fujimuro, T., Matsui, T., Nitanda, Y., Matta, T., Sakumura, Y., Saito, M., Kohno, K., Nakahata, Y., and Bessho, Y. (2014). Hes7 3'UTR is required for somite segmentation function. Sci Rep 4, 6462.

（↑藤室さんの博士学位関連論文）

Akiyama, R., Masuda, M., Tsuge, S., Bessho, Y., and Matsui, T. (2014). An anterior limit of FGF/Erk signal activity marks the earliest future somite boundary in zebrafish. Development 141, 1104-1109.

（↑秋山さんの博士学位関連論文）

  Retnoaji, B., Akiyama, R., Matta, T., Bessho, Y., and Matsui, T. (2014). Retinoic acid controls proper head-to-trunk linkage in zebrafish by regulating an anteroposterior somitogenetic rate difference. Development 141, 158-165.

（↑Bangbangさんの博士学位関連論文）

 Nitanda, Y., Matsui, T., Matta, T., Higami, A., Kohno, K., Nakahata, Y., and Bessho, Y. (2014). 3'-UTR-dependent regulation of mRNA turnover is critical for differential distribution patterns of cyclic gene mRNAs. FEBS J 281, 146-156.

（↑二反田さんの博士学位関連論文）

Tahara, N., Bessho, Y., and Matsui, T. (2013). Celf1 is required for formation of endoderm-derived organs in zebrafish. Int J Mol Sci 14, 18009-18023.

（↑田原さんの博士学位関連論文）

Matsui, T., Sasaki, A., Akazawa, N., Otani, H., and Bessho, Y. (2012). Celf1 regulation of dmrt2a is required for somite symmetry and left-right patterning during zebrafish development. Development 139, 3553-3560.

Kim, W., Matsui, T., Yamao, M., Ishibashi, M., Tamada, K., Takumi, T., Kohno, K., Oba, S., Ishii, S., Sakumura, Y., et al. (2011). The period of the somite segmentation clock is sensitive to Notch activity. Mol Biol Cell 22, 3541-3549

（↑金さんの博士学位関連論文）

Matsui, T., Thitamadee, S., Murata, T., Kakinuma, H., Nabetani, T., Hirabayashi, Y., Hirate, Y., Okamoto, H., and Bessho, Y. (2011). Canopy1, a positive feedback regulator of FGF signaling, controls progenitor cell clustering during Kupffer's vesicle organogenesis. Proc Natl Acad Sci U S A 108, 9881-9886.

Hayashi, S., Shimoda, T., Nakajima, M., Tsukada, Y., Sakumura, Y., Dale, J.K., Maroto, M., Kohno, K., Matsui, T., and Bessho, Y. (2009). Sprouty4, an FGF inhibitor, displays cyclic gene expression under the control of the notch segmentation clock in the mouse PSM. PLoS One 4, e5603.

（↑林さんの博士学位関連論文）